该方法大大地提高了气体静压轴承刚度的测试精度与测试效率。
This method increases the measuring accuracy and efficiency greatly about the aerostatic bearing rigidity.
本文的结论对气体静压轴承的设计与制造。具有一定的实际意义。
The conclusions of this paper gave some certain practical significance to the design and manufacture of aerostatic cylindricalbearings.
利用气体静压轴承作为主要支承,利用磁轴承作控制和误差补偿,使两者优势互补。
In this dissertation gas bearings are used as the main supporting elements, AMB as control and error compensation device, thus they can make up each other.
其中包括气悬浮测振支承理论的基础、气体静压轴承的设计、关键零件的技术要求和加工工艺等。
After the theoretical basis of air-bearing system, the design of air static pressure bearing and the technology of key accessory are stated.
随着精密、超精密技术的飞速发展,对气体静压轴承的刚度、精度及稳定性的要求也不断地提高。
As the precision and ultra-precision technologies are developing in leaps and bounds, continuous improvements are also required in the stiffness, accuracy and stability of aerostatic bearings.
与传统的小孔节流气体静压轴承相比,气体静压多孔质轴承具有高承载能力、高阻尼和很好的稳定性等。
Compared with conventional orifice restriction aerostatic bearings, aerostatic porous bearings have some advantages for example high load capacity, high damp, wider stability, etc.
由于多孔质材料的特殊性,可以提供成千上万的微孔作为轴承节流器,因而多孔质气体静压轴承具有很高的承载能力和静态刚度。
Porous material can supply millions of micro-hole regarded as countless throttle, therefore porous aerostatic bearings have high load capacity and static stiffness.
由于多孔质材料的特殊性,可以提供成千上万的微孔作为轴承节流器,因而多孔质气体静压轴承具有很高的承载能力和静态刚度。
Porous material can supply millions of micro-hole regarded as countless throttle, therefore porous aerostatic bearings have high load capacity and static stiffness.
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